use "$data/final_1.dta", clear

*Table A7

// Create a temporary file to store p-values from each regression
tempfile results
postfile handle str20 outcome str20 predictor double p using `results'

// Loop over each outcome variable
foreach outcome of varlist total_characters chars_per_min time_in_room time_elapsed_minutes any_breaks  {

    // Run the regression with clustered standard errors
    reg `outcome' warm team warm_team, cluster(date_room)
    
    // Loop over each predictor to extract its p-value
    foreach pred in warm team warm_team {
        // Calculate the t-statistic and then the two‐tailed p-value
        scalar t_stat = _b[`pred'] / _se[`pred']
        scalar p_val  = 2 * ttail(e(df_r), abs(t_stat))
        post handle ("`outcome'") ("`pred'") (p_val)
    }
}
postclose handle

// Load the collected p-values
use `results', clear

ren outcome outcome 
rename predictor treatment
rename p pval



* Collect the total number of p-values tested

quietly sum pval
local totalpvals = r(N)

* Sort the p-values in ascending order and generate a variable that codes each p-value's rank

quietly gen int original_sorting_order = _n
quietly sort pval
quietly gen int rank = _n if pval~=.

* Set the initial counter to 1 

local qval = 1

* Generate the variable that will contain the BKY (2006) sharpened q-values

gen bky06_qval = 1 if pval~=.

* Set up a loop that begins by checking which hypotheses are rejected at q = 1.000, then checks which hypotheses are rejected at q = 0.999, then checks which hypotheses are rejected at q = 0.998, etc.  The loop ends by checking which hypotheses are rejected at q = 0.001.


while `qval' > 0 {
	* First Stage
	* Generate the adjusted first stage q level we are testing: q' = q/1+q
	local qval_adj = `qval'/(1+`qval')
	* Generate value q'*r/M
	gen fdr_temp1 = `qval_adj'*rank/`totalpvals'
	* Generate binary variable checking condition p(r) <= q'*r/M
	gen reject_temp1 = (fdr_temp1>=pval) if pval~=.
	* Generate variable containing p-value ranks for all p-values that meet above condition
	gen reject_rank1 = reject_temp1*rank
	* Record the rank of the largest p-value that meets above condition
	egen total_rejected1 = max(reject_rank1)

	* Second Stage
	* Generate the second stage q level that accounts for hypotheses rejected in first stage: q_2st = q'*(M/m0)
	local qval_2st = `qval_adj'*(`totalpvals'/(`totalpvals'-total_rejected1[1]))
	* Generate value q_2st*r/M
	gen fdr_temp2 = `qval_2st'*rank/`totalpvals'
	* Generate binary variable checking condition p(r) <= q_2st*r/M
	gen reject_temp2 = (fdr_temp2>=pval) if pval~=.
	* Generate variable containing p-value ranks for all p-values that meet above condition
	gen reject_rank2 = reject_temp2*rank
	* Record the rank of the largest p-value that meets above condition
	egen total_rejected2 = max(reject_rank2)

	* A p-value has been rejected at level q if its rank is less than or equal to the rank of the max p-value that meets the above condition
	replace bky06_qval = `qval' if rank <= total_rejected2 & rank~=.
	* Reduce q by 0.001 and repeat loop
	drop fdr_temp* reject_temp* reject_rank* total_rejected*
	local qval = `qval' - .001
}
	

quietly sort original_sorting_order
pause off
set more on

display "Code has completed."
display "Benjamini Krieger Yekutieli (2006) sharpened q-vals are in variable 'bky06_qval'"
display	"Sorting order is the same as the original vector of p-values"

keep outcome treatment pval bky06_qval

****************************************************************************************************************
use "$data/final_1.dta", clear
*Table A8 Panel A

// Create a temporary file to store p-values from each regression
tempfile results
postfile handle str20 outcome str20 predictor double p using `results'

// Loop over each outcome variable
foreach outcome of varlist total_characters chars_per_min time_in_room time_elapsed_minutes any_breaks  {

    // Run the regression with clustered standard errors
    reg `outcome' warm team_sex_mix warm_sex_mix, cluster(date_room)
    
    // Loop over each predictor to extract its p-value
    foreach pred in warm team_sex_mix warm_sex_mix {
        // Calculate the t-statistic and then the two‐tailed p-value
        scalar t_stat = _b[`pred'] / _se[`pred']
        scalar p_val  = 2 * ttail(e(df_r), abs(t_stat))
        post handle ("`outcome'") ("`pred'") (p_val)
    }
}
postclose handle

// Load the collected p-values
use `results', clear

ren outcome outcome 
rename predictor treatment
rename p pval



* Collect the total number of p-values tested

quietly sum pval
local totalpvals = r(N)

* Sort the p-values in ascending order and generate a variable that codes each p-value's rank

quietly gen int original_sorting_order = _n
quietly sort pval
quietly gen int rank = _n if pval~=.

* Set the initial counter to 1 

local qval = 1

* Generate the variable that will contain the BKY (2006) sharpened q-values

gen bky06_qval = 1 if pval~=.

* Set up a loop that begins by checking which hypotheses are rejected at q = 1.000, then checks which hypotheses are rejected at q = 0.999, then checks which hypotheses are rejected at q = 0.998, etc.  The loop ends by checking which hypotheses are rejected at q = 0.001.


while `qval' > 0 {
	* First Stage
	* Generate the adjusted first stage q level we are testing: q' = q/1+q
	local qval_adj = `qval'/(1+`qval')
	* Generate value q'*r/M
	gen fdr_temp1 = `qval_adj'*rank/`totalpvals'
	* Generate binary variable checking condition p(r) <= q'*r/M
	gen reject_temp1 = (fdr_temp1>=pval) if pval~=.
	* Generate variable containing p-value ranks for all p-values that meet above condition
	gen reject_rank1 = reject_temp1*rank
	* Record the rank of the largest p-value that meets above condition
	egen total_rejected1 = max(reject_rank1)

	* Second Stage
	* Generate the second stage q level that accounts for hypotheses rejected in first stage: q_2st = q'*(M/m0)
	local qval_2st = `qval_adj'*(`totalpvals'/(`totalpvals'-total_rejected1[1]))
	* Generate value q_2st*r/M
	gen fdr_temp2 = `qval_2st'*rank/`totalpvals'
	* Generate binary variable checking condition p(r) <= q_2st*r/M
	gen reject_temp2 = (fdr_temp2>=pval) if pval~=.
	* Generate variable containing p-value ranks for all p-values that meet above condition
	gen reject_rank2 = reject_temp2*rank
	* Record the rank of the largest p-value that meets above condition
	egen total_rejected2 = max(reject_rank2)

	* A p-value has been rejected at level q if its rank is less than or equal to the rank of the max p-value that meets the above condition
	replace bky06_qval = `qval' if rank <= total_rejected2 & rank~=.
	* Reduce q by 0.001 and repeat loop
	drop fdr_temp* reject_temp* reject_rank* total_rejected*
	local qval = `qval' - .001
}
	

quietly sort original_sorting_order
pause off
set more on

display "Code has completed."
display "Benjamini Krieger Yekutieli (2006) sharpened q-vals are in variable 'bky06_qval'"
display	"Sorting order is the same as the original vector of p-values"

keep outcome treatment pval bky06_qval

****************************************************************************************************************
use "$data/final_1.dta", clear
*Table A8 Panel B

// Create a temporary file to store p-values from each regression
tempfile results
postfile handle str20 outcome str20 predictor double p using `results'

// Loop over each outcome variable
foreach outcome of varlist total_characters chars_per_min time_in_room time_elapsed_minutes any_breaks  {

    // Run the regression with clustered standard errors
    reg `outcome' warm team_exp_mix warm_exp_mix, cluster(date_room)
    
    // Loop over each predictor to extract its p-value
    foreach pred in warm team_exp_mix warm_exp_mix {
        // Calculate the t-statistic and then the two‐tailed p-value
        scalar t_stat = _b[`pred'] / _se[`pred']
        scalar p_val  = 2 * ttail(e(df_r), abs(t_stat))
        post handle ("`outcome'") ("`pred'") (p_val)
    }
}
postclose handle

// Load the collected p-values
use `results', clear

ren outcome outcome 
rename predictor treatment
rename p pval



* Collect the total number of p-values tested

quietly sum pval
local totalpvals = r(N)

* Sort the p-values in ascending order and generate a variable that codes each p-value's rank

quietly gen int original_sorting_order = _n
quietly sort pval
quietly gen int rank = _n if pval~=.

* Set the initial counter to 1 

local qval = 1

* Generate the variable that will contain the BKY (2006) sharpened q-values

gen bky06_qval = 1 if pval~=.

* Set up a loop that begins by checking which hypotheses are rejected at q = 1.000, then checks which hypotheses are rejected at q = 0.999, then checks which hypotheses are rejected at q = 0.998, etc.  The loop ends by checking which hypotheses are rejected at q = 0.001.


while `qval' > 0 {
	* First Stage
	* Generate the adjusted first stage q level we are testing: q' = q/1+q
	local qval_adj = `qval'/(1+`qval')
	* Generate value q'*r/M
	gen fdr_temp1 = `qval_adj'*rank/`totalpvals'
	* Generate binary variable checking condition p(r) <= q'*r/M
	gen reject_temp1 = (fdr_temp1>=pval) if pval~=.
	* Generate variable containing p-value ranks for all p-values that meet above condition
	gen reject_rank1 = reject_temp1*rank
	* Record the rank of the largest p-value that meets above condition
	egen total_rejected1 = max(reject_rank1)

	* Second Stage
	* Generate the second stage q level that accounts for hypotheses rejected in first stage: q_2st = q'*(M/m0)
	local qval_2st = `qval_adj'*(`totalpvals'/(`totalpvals'-total_rejected1[1]))
	* Generate value q_2st*r/M
	gen fdr_temp2 = `qval_2st'*rank/`totalpvals'
	* Generate binary variable checking condition p(r) <= q_2st*r/M
	gen reject_temp2 = (fdr_temp2>=pval) if pval~=.
	* Generate variable containing p-value ranks for all p-values that meet above condition
	gen reject_rank2 = reject_temp2*rank
	* Record the rank of the largest p-value that meets above condition
	egen total_rejected2 = max(reject_rank2)

	* A p-value has been rejected at level q if its rank is less than or equal to the rank of the max p-value that meets the above condition
	replace bky06_qval = `qval' if rank <= total_rejected2 & rank~=.
	* Reduce q by 0.001 and repeat loop
	drop fdr_temp* reject_temp* reject_rank* total_rejected*
	local qval = `qval' - .001
}
	

quietly sort original_sorting_order
pause off
set more on

display "Code has completed."
display "Benjamini Krieger Yekutieli (2006) sharpened q-vals are in variable 'bky06_qval'"
display	"Sorting order is the same as the original vector of p-values"

keep outcome treatment pval bky06_qval

****************************************************************************************************************
use "$data/final_1.dta", clear
*Table A8 Panel C

// Create a temporary file to store p-values from each regression
tempfile results
postfile handle str20 outcome str20 predictor double p using `results'

// Loop over each outcome variable
foreach outcome of varlist total_characters chars_per_min time_in_room time_elapsed_minutes any_breaks  {

    // Run the regression with clustered standard errors
    reg `outcome' warm dissimilar_2 dissimilar_3  warm_dissimilar_2 warm_dissimilar_3, cluster(date_room)
    
    // Loop over each predictor to extract its p-value
    foreach pred in warm dissimilar_2 dissimilar_3  warm_dissimilar_2 warm_dissimilar_3 {
        // Calculate the t-statistic and then the two‐tailed p-value
        scalar t_stat = _b[`pred'] / _se[`pred']
        scalar p_val  = 2 * ttail(e(df_r), abs(t_stat))
        post handle ("`outcome'") ("`pred'") (p_val)
    }
}
postclose handle

// Load the collected p-values
use `results', clear

ren outcome outcome 
rename predictor treatment
rename p pval



* Collect the total number of p-values tested

quietly sum pval
local totalpvals = r(N)

* Sort the p-values in ascending order and generate a variable that codes each p-value's rank

quietly gen int original_sorting_order = _n
quietly sort pval
quietly gen int rank = _n if pval~=.

* Set the initial counter to 1 

local qval = 1

* Generate the variable that will contain the BKY (2006) sharpened q-values

gen bky06_qval = 1 if pval~=.

* Set up a loop that begins by checking which hypotheses are rejected at q = 1.000, then checks which hypotheses are rejected at q = 0.999, then checks which hypotheses are rejected at q = 0.998, etc.  The loop ends by checking which hypotheses are rejected at q = 0.001.


while `qval' > 0 {
	* First Stage
	* Generate the adjusted first stage q level we are testing: q' = q/1+q
	local qval_adj = `qval'/(1+`qval')
	* Generate value q'*r/M
	gen fdr_temp1 = `qval_adj'*rank/`totalpvals'
	* Generate binary variable checking condition p(r) <= q'*r/M
	gen reject_temp1 = (fdr_temp1>=pval) if pval~=.
	* Generate variable containing p-value ranks for all p-values that meet above condition
	gen reject_rank1 = reject_temp1*rank
	* Record the rank of the largest p-value that meets above condition
	egen total_rejected1 = max(reject_rank1)

	* Second Stage
	* Generate the second stage q level that accounts for hypotheses rejected in first stage: q_2st = q'*(M/m0)
	local qval_2st = `qval_adj'*(`totalpvals'/(`totalpvals'-total_rejected1[1]))
	* Generate value q_2st*r/M
	gen fdr_temp2 = `qval_2st'*rank/`totalpvals'
	* Generate binary variable checking condition p(r) <= q_2st*r/M
	gen reject_temp2 = (fdr_temp2>=pval) if pval~=.
	* Generate variable containing p-value ranks for all p-values that meet above condition
	gen reject_rank2 = reject_temp2*rank
	* Record the rank of the largest p-value that meets above condition
	egen total_rejected2 = max(reject_rank2)

	* A p-value has been rejected at level q if its rank is less than or equal to the rank of the max p-value that meets the above condition
	replace bky06_qval = `qval' if rank <= total_rejected2 & rank~=.
	* Reduce q by 0.001 and repeat loop
	drop fdr_temp* reject_temp* reject_rank* total_rejected*
	local qval = `qval' - .001
}
	

quietly sort original_sorting_order
pause off
set more on

display "Code has completed."
display "Benjamini Krieger Yekutieli (2006) sharpened q-vals are in variable 'bky06_qval'"
display	"Sorting order is the same as the original vector of p-values"

keep outcome treatment pval bky06_qval

